RU2010101335A - AIR VALVE ASSEMBLY FOR VACUUM CLEANER - Google Patents

Abstract

1. Vacuum cleaner air valve assembly containing:! a casing having an air inlet; ! an air valve body connected to the casing and having an air outlet; ! a piston located in the air valve body to be moved between the first position and the second position, the piston being movable to the second position by changing the air pressure in the air valve body; ! an elastic element for resiliently pressing the piston into a first position; and! a detecting sensor for emitting an electrical signal when the piston is in the second position, the piston blocks fluid communication between the air inlet and the air outlet when in the first position and allows fluid communication between the air inlet to air outlet and air outlet when in the second position. ! 2. The air valve assembly of claim 1, wherein the piston is configured to close the air inlet and create a gap for air flow between the inner wall of the air valve body and the piston. ! 3. An air valve assembly according to claim 1 or 2, wherein the resilient member comprises a first resilient member disposed between the air valve body and the piston. ! 4. The air valve assembly of claim 3, wherein the detection sensor is disposed between the air valve body and the piston and is actuated by the piston. ! 5. The air valve assembly of claim 4, wherein the detection sensor comprises a push switch. ! 6. Air valve assembly

Claims (19)

1. The air valve assembly of a vacuum cleaner, comprising: a casing having an air inlet; an air valve housing connected to the housing and having an air outlet; a piston located in the air valve body to be moved between the first position and the second position, wherein the piston is movable to the second position by changing air pressure in the air valve body; an elastic element for elastically pressing the piston into the first position; and a detection sensor for generating an electrical signal when the piston is in the second position, wherein the piston blocks fluid communication between the air inlet and the air outlet when in the first position, and allows fluid communication between the inlet for air and air outlet when in the second position. 2. The air valve assembly according to claim 1, wherein the piston is configured to close the air inlet and create a gap for air to flow between the inner wall of the air valve body and the piston. 3. The air valve assembly according to claim 1 or 2, wherein the elastic element comprises a first elastic element located between the air valve body and the piston. 4. The air valve assembly of claim 3, wherein the detection sensor is located between the air valve body and the piston and is actuated by the piston. 5. The air valve assembly of claim 4, wherein the detecting sensor comprises a push switch. 6. The air valve assembly according to claim 5, wherein the elastic element further comprises a second elastic element located inside the first elastic element between the air valve body and the piston, and wherein the air valve assembly further comprises a pressure member supported by the second elastic element, for pressing and actuating the push switch. 7. The air valve assembly according to claim 6, in which the elastic force (P1) of the first elastic element, the elastic force (P2) of the second elastic element and the pressing force (P3) driving the pressure switch satisfy the following condition P1> P2> P3. 8. The air valve assembly of claim 6, wherein the pressure member has a rod or plate shape. 9. The air valve assembly according to claim 6, wherein the second elastic element is located between the pressure element and the piston, and the pressure switch is located on the lower part of the air valve body. 10. The air valve assembly according to claim 6, in which the second elastic element is located on the lower part of the air valve body, and the pressure switch is located on the upper surface of the pressure element. 11. The air valve assembly of claim 4, wherein the detecting sensor comprises a side pressure switch located on an inner wall of the air valve body. 12. The air valve assembly of claim 4, wherein the detecting sensor comprises a magnetic element and a magnetic proximity sensor for recognizing the magnetic element. 13. The air valve assembly of claim 12, wherein the magnetic element is located on the piston and the magnetic proximity sensor is located on the inner wall of the air valve body. 14. A vacuum cleaner containing: a dust separation chamber having a dust separation unit located therein; an engine chamber having a suction engine located therein; the air valve assembly according to any one of claims 1 to 13, and located in the dust separation chamber, to provide a signal, while also letting air into the dust separation chamber to increase the pressure in the dust separation chamber when the negative pressure is increased in the dust collecting chamber ; and A warning device to alert you when the dust should be removed from the dust separation chamber in response to a signal from the air valve assembly. 15. The vacuum cleaner of claim 14, wherein the warning device is at least one of a loudspeaker for generating an audio signal and a display device for visually displaying a symbol, light signal or image. 16. A method of protecting the engine and warning about the time for removing dust from a vacuum cleaner, according to which prompt the dust separation chamber to increase the negative pressure therein; causing the piston of the air valve assembly to move toward the dust separation chamber, while compressing at least one elastic member; letting air into the dust separation chamber through the air valve assembly; prompt the piston to actuate the detection sensor; and alert the time when dust should be removed from the dust separation chamber in response to a signal issued in accordance with the operation of the detection sensor. 17. The method according to clause 16, in which when prompting the piston to actuate the detecting sensor cause at least one elastic element to click on the pressure element; and prompt the pressure member to actuate the detection sensor. 18. The method according to clause 16, in which, upon inducing the piston to actuate the detecting sensor, the piston element causes the lateral push switch located on the inner wall of the air valve body of the air valve assembly to be actuated. 19. The method according to clause 16, in which, upon prompting the piston to actuate the detection sensor, a magnetic proximity sensor located on the inner wall of the air valve body of the air valve assembly is caused to recognize a magnetic element located on the piston.